CN103858296A

CN103858296A - Busbar connection

Info

Publication number: CN103858296A
Application number: CN201280049722.5A
Authority: CN
Inventors: M·宾内迪雅; A·拉莫斯
Original assignee: Eaton Industries Netherlands BV
Current assignee: Danfoss Power Solutions II BV
Priority date: 2011-09-12
Filing date: 2012-09-12
Publication date: 2014-06-11
Also published as: WO2013037798A1; EP2756568B1; EP2756568A1; US20140342586A1; RU2014114536A; EP2756568B8; CA2848474A1; BR112014005655A2; EP2568553A1; US9331442B2

Abstract

The invention relates to a busbar connection comprising: first and second busbars each with a free end, wherein the free ends of the busbars are directed towards each other and are in electrical contact with each other; and shield means enveloping the free ends of the busbars for steering the electrical field, characterized in that the shield means comprise a body of electrical conducting material, said body having two oppositely arranged contact surfaces for direct electrical contact with the free ends of the busbars and said body having a flange surrounding the contact surfaces and providing an upright edge around the contact surfaces.

Description

Bus connecting piece

Technical field

The present invention relates to a kind of bus connecting piece.

Background technology

Bus, for distributing electric power, is used in particular for distributing electric power to the electronic switch that is connected to subnet.

The in the situation that of l kV and the application of more high-tension mesohigh, two buses can not connect each other simply.Mesohigh is producing electric field between bus and between bus and ground connection cabinet.The density of this electric field should keep low as far as possible and allow under boundary, otherwise flashover may occur.Therefore, at present bus and thus any transition in any connector be manufactured to as far as possible and link up to avoid the region of high electric field density.

For example, bus for switchgear with by Subnetwork connection to main power source.Switchgear typically has three buses and runs through shell wherein, and each is a bus mutually.In each shell, be provided with suitable switch for the panel of subnet and being connected or disconnection of bus.

Connector for connecting two end conductors has been described in JP2009 261215.Insulating body is arranged on end conductor around and these elements of gassiness container pack.EP0175637 discloses the conductive shielding part of tubulose, and the two ends of conductor are inserted shielding part and are screwed.EP0789424 discloses the specific connector for conductor, and it has cannelure.Connector itself has inside groove to provide the conduction between connector and conductor to connect.Shell is also arranged on around connector and end conductor, and this shell can blanketing gas.JP9308023 discloses the connector for two conductors.This end conductor has with bolting lug and is arranged on connector tubular shielding part around.DE2707592 relates to the connector that allows end conductor misalignment.This connector is the tube element with two eccentric orfices.By rotating this tube element, can process misalignment.

Because common some Subnetwork connections are to main power source, the mutual positioned adjacent of many panels, and bus connects panel adjacent one another are.In order to make the bus of adjacent panel link up and connect nattily, shell aligns and certain height is set, so that bus aligns as well as possible.Then for example conductor dbus is crossed to two free ends of bus that bolt is connected to alignment so that bus is interconnected.

Typically, in the time that bus interconnects, even if little misalignment occurs bus, the large radius that the free end of bus has also can guarantee that the transition from a bus to next bus is coherent in to avoid high electric field density region as far as possible.The free end of bus must be processed so that large radius to be provided.This is expensive manufacturing step.

Alignment switchgear and processing bus, so that required radius to be provided, to need time and effort, thereby cause high cost.

Summary of the invention

The object of this invention is to provide a kind of bus connecting piece, wherein, above-mentioned shortcoming is reduced and even prevents.

Achieve this end with the bus connecting piece according to claim 1.

Use according to bus connecting piece of the present invention, two connections between bus can be provided, without alignment bus and without the free end with particular radius that bus is provided.Screening arrangement guarantees to make any gathering of field wire to be eliminated, so that the peak value of electric field reduces.

If two bus does not line up, conventionally there is at least one from a bus near the region with the high field density transition region of another bus.If without any measure, this will increase the risk of flashover greatly.But screening arrangement according to the present invention is provided to wrap up the free end of bus, therefore also wrap up at least one and have the region of high field density.These screening arrangement control electric fields, are eliminated the region of at least one high field density.

Screening arrangement according to the present invention comprises the body of electric conducting material, described body has two contact-making surfaces that are oppositely arranged, for directly electrically contacting with the free end of bus, and described body has around the flange of described contact-making surface and the upright edge around described contact-making surface is provided.

The body of electric conducting material also can separately be manufactured and manufacture by being placed between the free end of two buses in assembling process.Body has other advantages, and the possible space between body and bus does not affect shielding properties substantially.

According in the preferred embodiment of bus connecting piece of the present invention, screening arrangement is substantially placed in the middle with respect to the transitional region between two free ends of the first bus and the second bus.

By having screening arrangement substantially placed in the middle with respect to transitional region, screening arrangement will wrap up the free end of the first bus and the free end of the second bus equably.The free end that transitional region is considered to the first bus finishes the region starting with the free end of the second bus.

According in another preferred embodiment of bus connecting piece of the present invention, screening arrangement comprises around the ring of the free-ended insulating material of bus.Insulating material has good dielectric constant performance, to eliminate and to reduce electric field and assemble.By the ring of this free-ended insulating material around bus is set, provide a kind of reliable shielding.

But, the disk that comprises the electric conducting material directly contacting with the free end of the second bus according to another embodiment of bus connecting piece of the present invention between the first bus and the free end of the second bus and with the first bus, wherein the ring of insulating material is arranged on the edge of disk.

The disk of this encirclement ring with insulating material is easy to separately manufacture, and is arranged between the free end of two buses in the time of assembling.

Preferably, flange has the protruding surface of extending between the first bus and the second bus.Protruding surface on flange control field wire and by field wire from the first bus second bus that leads.

But, comprising the connecting plate for connecting the first bus and the second bus according to another embodiment of bus connecting piece of the present invention, this connecting plate is connected on two buses with bolt.Connecting plate provides the mechanical connection between two buses, and guarantees to electrically contact and will exist always.

Accompanying drawing explanation

To illustrate by reference to the accompanying drawings these and other features of the present invention.

Fig. 1 shows according to the schematic diagram of the switchgear with bus connecting piece of the present invention.

Fig. 2 shows the stereogram of the bus connecting piece of Fig. 1.

Fig. 3 shows the sectional view of the bus connecting piece of Fig. 1.

Fig. 4 shows according to the sectional view of second of bus connecting piece of the present invention embodiment.

Fig. 5 shows according to the sectional view of the 3rd of bus connecting piece of the present invention the embodiment.

Embodiment

Fig. 1 shows the schematic diagram of the switchgear 1 of typically applying for mesohigh.Switchgear has two panels 2, and each panel has three switches 3 that are arranged in shell 8.

Article three, bus 4,5 and 6 runs through each shell 8, and has bus connecting piece 9 in each transition region from a shell 8 to next shell 8.Each switch 3 of panel 2 is upper by one in one in bus 4,5 and 6 line 10 that is connected to subnet 11, subnet 11 and main power source 7 can be switched on or off.

Fig. 2 shows the stereogram according to bus connecting piece of the present invention.Two

bus parts

12 and 13 are placed adjacently, but needn't align.Each

bus parts

12,13 have

groove

14,15, and conductor 16 is placed in groove 14,15.Conductor 16 is guaranteed firmly connection (also referring to Fig. 3) between two

bus parts

12 and 13.

Fig. 3 illustrates

bus parts

12,13 free end the 17, the 18th separately in the mode of exaggeration, does not line up.Or not the chance of flashover in order to ensure the increase that does not line up the field density causing, shielding part 19 is set to around and wraps up free end 17,18.In this embodiment, shielding part 19 is non-conductive plastics preferably, and it controls the electric field around

free end

17,18, and the region of eliminating high field density.

Fig. 4 shows according to second of bus connecting piece 20 of the present invention embodiment.In this embodiment, two the

bus parts

21,22 that have respectively a

free end

23,24 are adjacent to place.Shielding

part

25 and 26 is placed between

free end

23 and 24, and fills the gap between

free end

23 and 24.

Shielding part

25,26 has web 25, and web 25 directly contacts with the end face of free end 23,24.

Shielding part

25,26 also comprises the flange 26 with recessed outer surface.Due to the shape of flange 26, the electric field in

bus parts

21,22 is controlled, and the chance of flashover is greatly reduced.

In addition, by connecting plate 27

connection bus parts

21,22, connecting plate 27 can run through web 25 maybe can be connected to web 25.

Fig. 5 shows according to the sectional view of the 3rd of bus connecting piece of the present invention the embodiment 30.Bus connecting piece 30 connects two bus parts 31,32.These

bus parts

31,32 do not need alignment.

The disk 35 of electric conducting material is arranged between

bus parts

31,32

free end

33,34 separately.The ring 36 of non-conducting material (preferably plastics) is arranged in the edge of disk 35.

In the present embodiment, the electric field of

bus parts

31,32 is directed to disk 35 and flows to the edge of disk.By arranging the ring 36 of preferred non-conducting material, any gathering of electric field is controlled and is eliminated.

Claims

1. a bus connecting piece, comprising:

The-the first bus and the second bus, all have free end, and wherein, the described free end of described bus toward each other and be electrical contact with each other; And

-for controlling the described free-ended screening arrangement of the described bus of parcel of electric field,

It is characterized in that, described screening arrangement comprises the body of electric conducting material, described body has two contact-making surfaces that are oppositely arranged, for directly electrically contacting with the described free end of described bus, and described body has around the flange of described contact-making surface and the upright edge around described contact-making surface is provided.

2. bus connecting piece according to claim 1, is characterized in that, described screening arrangement is substantially placed in the middle with respect to the transitional region between two free ends of described the first bus and described the second bus.

3. bus connecting piece according to claim 1 and 2, is characterized in that, described screening arrangement comprises around the ring of the described free-ended insulating material of described bus.

4. bus connecting piece according to claim 3, the disk that comprises the electric conducting material directly contacting between described the first bus and the described free end of described the second bus and with the described free end of described the first bus and described the second bus, the ring of wherein said insulating material is arranged on the edge of described disk.

5. bus connecting piece according to claim 1, is characterized in that, described flange has the protruding surface of extending between described the first bus and described the second bus.

6. according to bus connecting piece in any one of the preceding claims wherein, comprise the connecting plate for connecting described the first bus and described the second bus, described connecting plate is connected on two buses with bolt.